1. Figure 1. Multiple levels of chromatin folding
Figure 1. Multiple levels of chromatin folding. DNA compaction within the interphase nucleus (depicted at left) occurs through a hierarchy of histone-dependent interactions that can be subdivided into primary, secondary, and tertiary levels of structure. Strings of nucleosomes compose the primary structural unit. Formation of 30-nm fibers through histone tail-mediated nucleosome-nucleosome interactions provides a secondary level of compaction, whereas tail-mediated association of individual fibers produces tertiary structures (such as chromonema fibers). This figure is adapted from figure 1 of (4).

2. Figure 2. Transcriptional activators induce large-scale changes in chromatin folding. (Left) DNA constructs containing LacI-binding sequences (orange boxes) upstream of a dihydrofolate reductase (DHFR) gene (navy blue) were integrated into chromosomes as tandem ~90-Mbp arrays by Tumbar and co-workers (32). (Right) This locus can be visualized in vivo by expressing a LacI-GFP fusion protein (yellow-green protein), which images as a single green focus within the nucleus (top). In contrast, expression of a LacI-GFP-VP16 activator protein (yellow-green-red protein) produced a ribbonlike chromonema fiber within a subset of cells (bottom). On the basis of comparison of ribbon length with the known base pair length of the DNA tract, fiber width was estimated at ~100 nm, which is considerably larger and more compact than even a fully condensed 30-nm nucleosomal array.

3. Figure 3. Chromatin fiber heterogeneity influences the structural characteristics of chromatin. Differences in histone modifications or histone composition result in distinct structural consequences for localized domains. High levels of acetylation (yellow nucleosomes) favor fiber decondensation, with low levels of acetylation or linker histone association allowing more extensive condensation and fiber-fiber association (orange chromatin segments). In contrast, deacetylated, methylated regions (red regions) recruit nonhistone proteins such as HP1 (purple) that nucleate specialized structural domains such as centromeric heterochromatin. Incorporation of the histone variant H2AZ (blue nucleosomes) produces regions of chromatin fully condensed to a 30-nm fiber, unable to undergo intermolecular fiber-fiber condensation.